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Manipulating Data

Manipulating Data. Objectives. After completing this lesson, you should be able to do the following: Describe each DML statement Insert rows into a table Update rows in a table Delete rows from a table Merge rows in a table Control transactions. Data Manipulation Language.

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Manipulating Data

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  1. Manipulating Data

  2. Objectives After completing this lesson, you should be able to do the following: • Describe each DML statement • Insert rows into a table • Update rows in a table • Delete rows from a table • Merge rows in a table • Control transactions

  3. Data Manipulation Language • A DML statement is executed when you: • Add new rows to a table • Modify existing rows in a table • Remove existing rows from a table • A transaction consists of a collection of DML statements that form a logical unit of work.

  4. …insert a new row into the DEPARMENTS table… Adding a New Row to a Table New row DEPARTMENTS

  5. The INSERT Statement Syntax • Add new rows to a table by using the INSERT statement. • Only one row is inserted at a time with this syntax. INSERT INTO table [(column [, column...])] VALUES (value [, value...]);

  6. Inserting New Rows • Insert a new row containing values for each column. • List values in the default order of the columns in the table. • Optionally, list the columns in the INSERT clause. • Enclose character and date values within single quotation marks. INSERT INTO departments(department_id, department_name, manager_id, location_id) VALUES (70, 'Public Relations', 100, 1700); 1 row created.

  7. Inserting Rows with Null Values • Implicit method: Omit the column from the column list. INSERT INTO departments (department_id, department_name ) VALUES (30, 'Purchasing'); 1 row created. • Explicit method: Specify the NULL keyword in the VALUES clause. INSERT INTO departments VALUES (100, 'Finance', NULL, NULL); 1 row created.

  8. Inserting Special Values The SYSDATE function records the current date and time. INSERT INTO employees (employee_id, first_name, last_name, email, phone_number, hire_date, job_id, salary, commission_pct, manager_id, department_id) VALUES (113, 'Louis', 'Popp', 'LPOPP', '515.124.4567', SYSDATE, 'AC_ACCOUNT', 6900, NULL, 205, 100); 1 row created.

  9. Inserting Specific Date Values • Add a new employee. • Verify your addition. INSERT INTO employees VALUES (114, 'Den', 'Raphealy', 'DRAPHEAL', '515.127.4561', TO_DATE('FEB 3, 1999', 'MON DD, YYYY'), 'AC_ACCOUNT', 11000, NULL, 100, 30); 1 row created.

  10. 1 row created. Creating a Script • Use & substitution in a SQL statement to prompt for values. • & is a placeholder for the variable value. INSERT INTO departments (department_id, department_name, location_id) VALUES (&department_id, '&department_name',&location);

  11. Copying Rows from Another Table • Write your INSERT statement with a subquery. • Do not use the VALUES clause. • Match the number of columns in the INSERT clause to those in the subquery. INSERT INTO sales_reps(id, name, salary, commission_pct) SELECT employee_id, last_name, salary, commission_pct FROM employees WHERE job_id LIKE '%REP%'; 4 rows created.

  12. Changing Data in a Table EMPLOYEES Update rows in the EMPLOYEES table.

  13. The UPDATE Statement Syntax • Modify existing rows with the UPDATE statement. • Update more than one row at a time, if required. UPDATE table SET column = value [, column = value, ...] [WHERE condition];

  14. Updating Rows in a Table • Specific row or rows are modified if you specify the WHERE clause. • All rows in the table are modified if you omit the WHERE clause. UPDATE employees SET department_id = 70 WHERE employee_id = 113; 1 row updated. UPDATE copy_emp SET department_id = 110; 22 rows updated.

  15. Updating Two Columns with a Subquery Update employee 114’s job and salary to match that of employee 205. UPDATE employees SET job_id = (SELECT job_id FROM employees WHERE employee_id = 205), salary = (SELECT salary FROM employees WHERE employee_id = 205) WHERE employee_id = 114; 1 row updated.

  16. Updating Rows Based on Another Table Use subqueries in UPDATE statements to update rows in a table based on values from another table. UPDATE copy_emp SET department_id = (SELECT department_id FROM employees WHERE employee_id = 100) WHERE job_id = (SELECT job_id FROM employees WHERE employee_id = 200); 1 row updated.

  17. Updating Rows: Integrity Constraint Error Department number 55 does not exist UPDATE employees SET department_id = 55 WHERE department_id = 110; UPDATE employees * ERROR at line 1: ORA-02291: integrity constraint (HR.EMP_DEPT_FK) violated - parent key not found

  18. Removing a Row from a Table DEPARTMENTS Delete a row from the DEPARTMENTS table.

  19. The DELETE Statement You can remove existing rows from a table by using the DELETE statement. DELETE [FROM] table [WHERE condition];

  20. Deleting Rows from a Table • Specific rows are deleted if you specify the WHERE clause. • All rows in the table are deleted if you omit the WHERE clause. DELETE FROM departments WHERE department_name = 'Finance'; 1 row deleted. DELETE FROM copy_emp; 22 rows deleted.

  21. Deleting Rows Based on Another Table Use subqueries in DELETE statements to remove rows from a table based on values from another table. DELETE FROM employees WHERE department_id = (SELECT department_id FROM departments WHERE department_name LIKE '%Public%'); 1 row deleted.

  22. Deleting Rows: Integrity Constraint Error You cannot delete a row that contains a primary key that is used as a foreign key in another table. DELETE FROM departments WHERE department_id = 60; DELETE FROM departments * ERROR at line 1: ORA-02292: integrity constraint (HR.EMP_DEPT_FK) violated - child record found

  23. Using a Subquery in an INSERT Statement INSERT INTO (SELECT employee_id, last_name, email, hire_date, job_id, salary, department_id FROM employees WHERE department_id = 50) VALUES (99999, 'Taylor', 'DTAYLOR', TO_DATE('07-JUN-99', 'DD-MON-RR'), 'ST_CLERK', 5000, 50); 1 row created.

  24. Using a Subquery in an INSERT Statement • Verify the results SELECT employee_id, last_name, email, hire_date, job_id, salary, department_id FROM employees WHERE department_id = 50;

  25. Database Transactions A database transaction consists of one of the following: • DML statements which constitute one consistent change to the data • One DDL statement • One DCL statement

  26. Database Transactions • Begin when the first DML SQL statement is executed • End with one of the following events: • A COMMIT or ROLLBACK statement is issued • A DDL or DCL statement executes (automatic commit) • The user exits iSQL*Plus • The system crashes

  27. Advantages of COMMITand ROLLBACK Statements With COMMIT and ROLLBACK statements, you can: • Ensure data consistency • Preview data changes before making changes permanent • Group logically related operations

  28. Time COMMIT Transaction DELETE SAVEPOINT A INSERT UPDATE SAVEPOINT B INSERT Controlling Transactions ROLLBACK to SAVEPOINT A ROLLBACK to SAVEPOINT B ROLLBACK

  29. Rolling Back Changes to a Marker • Create a marker in a current transaction by using the SAVEPOINT statement. • Roll back to that marker by using the ROLLBACK TOSAVEPOINT statement. UPDATE... SAVEPOINT update_done; Savepoint created. INSERT... ROLLBACK TO update_done; Rollback complete.

  30. Implicit Transaction Processing • An automatic commit occurs under the following circumstances: • DDL statement is issued • DCL statement is issued • Normal exit from iSQL*Plus, without explicitly issuing COMMIT or ROLLBACK statements • An automatic rollback occurs under an abnormal termination of iSQL*Plus or a system failure.

  31. State of the Data Before COMMIT or ROLLBACK • The previous state of the data can be recovered. • The current user can review the results of the DML operations by using the SELECT statement. • Other users cannot view the results of the DML statements by the current user. • The affected rows are locked; other users cannot change the data within the affected rows.

  32. State of the Data after COMMIT • Data changes are made permanent in the database. • The previous state of the data is permanently lost. • All users can view the results. • Locks on the affected rows are released; those rows are available for other users to manipulate. • All savepoints are erased.

  33. Committing Data • Make the changes. • Commit the changes. DELETE FROM employees WHERE employee_id = 99999; 1 row deleted. INSERT INTO departments VALUES (290, 'Corporate Tax', NULL, 1700); 1 row inserted. COMMIT; Commit complete.

  34. State of the Data After ROLLBACK Discard all pending changes by using the ROLLBACK statement: • Data changes are undone. • Previous state of the data is restored. • Locks on the affected rows are released. DELETE FROM copy_emp; 22 rows deleted. ROLLBACK; Rollback complete.

  35. Statement-Level Rollback • If a single DML statement fails during execution, only that statement is rolled back. • The Oracle server implements an implicit savepoint. • All other changes are retained. • The user should terminate transactions explicitly by executing a COMMIT or ROLLBACK statement.

  36. Read Consistency • Read consistency guarantees a consistent view of the data at all times. • Changes made by one user do not conflict with changes made by another user. • Read consistency ensures that on the same data: • Readers do not wait for writers. • Writers do not wait for readers.

  37. Implementation of Read Consistency User A Datablocks UPDATE employeesSET salary = 7000 WHERE last_name = 'Goyal'; Rollbacksegments changedand unchanged data SELECT *FROM userA.employees; Readconsistentimage before change“old” data User B

  38. Locking In an Oracle database, locks: • Prevent destructive interaction between concurrent transactions • Require no user action • Are held for the duration of the transaction • Are of two types: explicit locking and implicit locking

  39. Implicit Locking • Two lock modes: • Exclusive: Locks out other users • Share: Allows other users to access • High level of data concurrency: • DML: Table share, row exclusive • Queries: No locks required • DDL: Protects object definitions • Locks held until commit or rollback

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